Attachment strength and on-farm die-off rate of Escherichia coli on watermelon surfaces.

Attachment strength and on-farm die-off rate of Escherichia coli on watermelon surfaces.

Pre-harvest contamination of produce has been a major food safety focus. Insight into the behavior of enteric pathogens on produce in pre-harvest conditions will aid in developing pre-harvest and post-harvest risk management strategies. In this study, the attachment strength (SR) and die-off rate of...

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Main Authors: Vijay Singh Chhetri, Kathryn Fontenot, Ronald Strahan, Veerachandra K Yemmireddy, Cameron Cason, Karuna Kharel, Achyut Adhikari
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2019-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0210115
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spelling doaj-18869cea1d2440a182796d4f5df2fa762021-03-03T20:59:04ZengPublic Library of Science (PLoS)PLoS ONE1932-62032019-01-01141e021011510.1371/journal.pone.0210115Attachment strength and on-farm die-off rate of Escherichia coli on watermelon surfaces.Vijay Singh ChhetriKathryn FontenotRonald StrahanVeerachandra K YemmireddyCameron CasonKaruna KharelAchyut AdhikariPre-harvest contamination of produce has been a major food safety focus. Insight into the behavior of enteric pathogens on produce in pre-harvest conditions will aid in developing pre-harvest and post-harvest risk management strategies. In this study, the attachment strength (SR) and die-off rate of E. coli on the surface of watermelon fruits and the efficacy of aqueous chlorine treatment against strongly attached E. coli population were investigated. Watermelon seedlings were transplanted into eighteen plots. Prior to harvesting, a cocktail of generic E. coli (ATCC 23716, 25922 and 11775) was inoculated on the surface of the watermelon fruits (n = 162) and the attachment strength (SR) values and the daily die-off rates were examined up to 6 days by attachment assay. After 120 h, watermelon samples were treated with aqueous chlorine (150 ppm free chlorine for 3 min). The SR value of the E. coli cells on watermelon surfaces significantly increased (P<0.05) from 0.04 to 0.99 in the first 24 h, which was primarily due to the decrease in loosely attached population, given that the population of strongly attached cells was constant. Thereafter, there was no significant change in SR values, up to 120 h. The daily die-off rate of E. coli ranged from -0.12 to 1.3 log CFU/cm2. The chlorine treatment reduced the E. coli level by 4.2 log CFU/cm2 (initial level 5.6 log CFU/cm2) and 0.62 log CFU/cm2 (initial level 1.8 log CFU/cm2), on the watermelons that had an attachment time of 30 min and 120 h respectively. Overall, our findings revealed that the population of E. coli on watermelon surfaces declined over time in an agricultural environment. Microbial contamination during pre-harvest stages may promote the formation of strongly attached cells on the produce surfaces, which could influence the efficacy of post-harvest washing and sanitation techniques.https://doi.org/10.1371/journal.pone.0210115
collection DOAJ
language English
format Article
sources DOAJ
author Vijay Singh Chhetri
Kathryn Fontenot
Ronald Strahan
Veerachandra K Yemmireddy
Cameron Cason
Karuna Kharel
Achyut Adhikari
spellingShingle Vijay Singh Chhetri
Kathryn Fontenot
Ronald Strahan
Veerachandra K Yemmireddy
Cameron Cason
Karuna Kharel
Achyut Adhikari
Attachment strength and on-farm die-off rate of Escherichia coli on watermelon surfaces.
PLoS ONE
author_facet Vijay Singh Chhetri
Kathryn Fontenot
Ronald Strahan
Veerachandra K Yemmireddy
Cameron Cason
Karuna Kharel
Achyut Adhikari
author_sort Vijay Singh Chhetri
title Attachment strength and on-farm die-off rate of Escherichia coli on watermelon surfaces.
title_short Attachment strength and on-farm die-off rate of Escherichia coli on watermelon surfaces.
title_full Attachment strength and on-farm die-off rate of Escherichia coli on watermelon surfaces.
title_fullStr Attachment strength and on-farm die-off rate of Escherichia coli on watermelon surfaces.
title_full_unstemmed Attachment strength and on-farm die-off rate of Escherichia coli on watermelon surfaces.
title_sort attachment strength and on-farm die-off rate of escherichia coli on watermelon surfaces.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2019-01-01
description Pre-harvest contamination of produce has been a major food safety focus. Insight into the behavior of enteric pathogens on produce in pre-harvest conditions will aid in developing pre-harvest and post-harvest risk management strategies. In this study, the attachment strength (SR) and die-off rate of E. coli on the surface of watermelon fruits and the efficacy of aqueous chlorine treatment against strongly attached E. coli population were investigated. Watermelon seedlings were transplanted into eighteen plots. Prior to harvesting, a cocktail of generic E. coli (ATCC 23716, 25922 and 11775) was inoculated on the surface of the watermelon fruits (n = 162) and the attachment strength (SR) values and the daily die-off rates were examined up to 6 days by attachment assay. After 120 h, watermelon samples were treated with aqueous chlorine (150 ppm free chlorine for 3 min). The SR value of the E. coli cells on watermelon surfaces significantly increased (P<0.05) from 0.04 to 0.99 in the first 24 h, which was primarily due to the decrease in loosely attached population, given that the population of strongly attached cells was constant. Thereafter, there was no significant change in SR values, up to 120 h. The daily die-off rate of E. coli ranged from -0.12 to 1.3 log CFU/cm2. The chlorine treatment reduced the E. coli level by 4.2 log CFU/cm2 (initial level 5.6 log CFU/cm2) and 0.62 log CFU/cm2 (initial level 1.8 log CFU/cm2), on the watermelons that had an attachment time of 30 min and 120 h respectively. Overall, our findings revealed that the population of E. coli on watermelon surfaces declined over time in an agricultural environment. Microbial contamination during pre-harvest stages may promote the formation of strongly attached cells on the produce surfaces, which could influence the efficacy of post-harvest washing and sanitation techniques.
url https://doi.org/10.1371/journal.pone.0210115
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